This dataset is a compilation of quaternary volcanic flow features in Utah, provided by the Utah Geological for the National Geothermal Data System. Two formats are available as a download: GIS Shapefiles and a File Geodatabase.

This dataset is a compilation of aqueous chemistry data from thermal springs in Utah, submitted by the Utah Geological Survey and published as a Web feature service for the National Geothermal Data System. The document contains 12 worksheets, including information about the template, instructions for using the template, notes related to revisions of the template, Resource provider information, the data, a field list (data mapping view) and a worksheet with vocabularies for use in populating the spreadsheet (data valid terms). Data from 285 analysis are included. Fields in the data table include AnalysisURI, AnalysisName, Notes, SamplingFeatureName, SamplingFeatureURI, OtherSiteID, SpecimenID, Label, SpecimenDescription, SpecimenURI, SpecimenCollectionDate, SpecimenCollectionMethod, OtherAnalyticalData, FluidTemperature_C, Discharge, DischargeUnits, County, State, LatDegree, LongDegree, SRS, LocationUncertaintyStatement, PLSSMeridians, Township, Range, Section_, SectionPart, Elevation, ElevationDatum, ElevationUnits, Source, MetadataURI, AnalysisType, AnalysisDate, Laboratory, ProcedureSummary and DataEntrySource.

This dataset is a compilation of volcanic vent features, submitted by the Utah Geological Survey and published as a Web feature service for the National Geothermal Data System. The document contains 7 worksheets, including information about the template, instructions for using the template, notes related to revisions of the template, Resource provider information, the data, a field list (data mapping view) and a worksheet with vocabularies for use in populating the spreadsheet (data valid terms). Data from 195 volcanic vents are included. Fields in the data table include FeatureURI, VolcVentName, Label, Description, FeatureType, VolcanicGroup, UTM_E, UTM_N , UTMDatumZone, LatDegree, LongDegree, SRS, LocationUncertaintyStatement, County, State, LocationKeyword, VentElevation, ElevationUOM, RelatedFeature, GeologicHistory, YoungestAge, OldestAge, YoungestRadiometricAge_Ma, OldestRadiometricAge_Ma, AgeUncertainty_Ma, AgeSource, GeologicUnit, MaterialComposition, FlowType, Notes and Source.

This file contains 2 spreadsheets. They are compilations of borehole temperature observations compiled by the Utah Geological Survey, published as a Web feature service for the National Geothermal Data System. The documents contains 7 worksheets, including information about the template, notes related to revisions of the template, Resource provider information, the data, a field list (data mapping view), a key for UT abbreviations and a worksheet with vocabularies for use in populating the spreadsheet (data valid terms). Data from 133 observations from 130 wells are included.

The Department of Energy's EGS Strategic Plan anticipates that EGS experimentation in the United States will be underway by 2004 in areas within or adjaeent to commerciallydeveloped hydrothermal fields, and that an EGS demonstration plant will begin operating in 2008. Criteria for selecting sites for EGS experimentation focus on enhancing energy recovery at producing fields while advancing the EGS knowledge base incrementally towards a demonstration
project. With input from field operators, basic characteristics and information on the type of EGS work that may be undertaken are presented for 15 producing fields and 2 unexploited fields. Six producing fields meet 90 - 100% of the site selection criteria and 9 meet 60 - 70%. The use of EGS techniques to supply an existing facility has the advantages of low cost, support from the geothermal industry and demonstration of applicability to a variety of conversion
technologies. This approach seeks to reduce EGS risk and uncertainty, promoting the transition from research to commercial evelopment.